基于软计算的导引头优化算法和七电平逆变器配置提高光伏板效率

2012 12th International Conference on Intelligent Systems Design and Applications (ISDA) Pub Date : 2012-11-01 DOI:10.1109/ISDA.2012.6416549

M. Lavanya, R. Revathi, J. Rajesh, S. M. Basha

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引用次数: 1

摘要

可再生能源是从各种自然过程中获得的，例如太阳产生的热量。太阳能随辐射光的强度而波动。因此，面板的输出功率会发生变化。这种变化的电源既不能接入电网，也不能用于负载。因此为了获得恒定的功率，采用了最大功率点技术(MPPT)。现有算法如Perturb和Observe技术和增量电导被证明在寻找最优解方面效率较低。为此，提出了一种软计算技术——导引头优化算法来求解最大功率点。在MATLAB中开发了MPPT控制算法，对光伏板电压进行了优化。产生的太阳能通常需要转换成交变量，这就需要使用逆变器。实现了一种七电平逆变器，以获得谐波较小的交流输出。实验结果表明，该算法比现有的算法效率更高。

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Efficiency enhancement of PV panel using soft computing based seeker optimization algorithm and seven level inverter configuration

Renewable energy is obtained from various natural processes such as heat generated by sun. Solar energy fluctuates with the intensity of the radiated light. As a result the output power of the panel varies. This varying supply can neither be connected to grid nor used for load. Hence to obtain a constant power, maximum power point technology (MPPT) is adopted. Existing algorithms like Perturb and Observe technique and Incremental Conductance proved to be less efficient in finding the optimal solution. Hence soft computing technique called seeker optimization algorithm is proposed to find the maximum power point. The proposed MPPT control algorithm is developed in MATLAB, which optimizes the PV panel voltage. Generated solar energy usually requires conversion to an alternating quantity, which requires the use of inverters. A seven level inverter is implemented to obtain a harmonic less AC output. Experimental results show that the proposed algorithm proves to be more efficient than the existing techniques.

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来源期刊

2012 12th International Conference on Intelligent Systems Design and Applications (ISDA)

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